Ionized gas for medical treatment

ABSTRACT

The present invention relates to a method for treatment of a pathology-affected site in a subject, the method comprising providing said site with a net electrical charge for a period of time by subjecting the subject to a flux of ionized gas molecules whereby is provided an electrical current between said site and tissue outside said site.

CROSS REFERENCE TO RELATED APPLICATIONS

This Application is a continuation of U.S. application Ser. No.12/991,716 filed on Jan. 20, 2011 which is a National Stage Entry ofPCT/EP2009/055520 filed on May 7, 2009 and claims priority to U.S.Provisional 61/071,641 filed on May 9, 2008 and European Application No.08155975.9 filed May 9, 2008 the entireties of which are allincorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates to the field of electrotherapy. Inparticular, the present invention relates to electrotherapy of localizedpathological areas or zones by means of treatment with ionized gasmolecules such as ionized air molecules.

BACKGROUND OF THE INVENTION

Electrical stimulation (also termed electrostimulation or ES) is awell-known technology, which has been used in treatment of a largenumber of pathologies—when used in disease treatment, ES is often termedelectrotherapy.

In practice ES involves the transfer of electric current through anapplied surface electrode pad that is in electrolytic contact with theexternal skin surface and the area to receive the effect. In ES, atleast two electrodes (a lead and a discharge electrode) are required tocomplete the electric circuit.

Using electrodes when ES treating a human or an animal includes thedrawbacks that it is difficult i.a. due to manipulation of theelectrodes, that the dosage is difficult to control (i.e.“admininstration” is a problem), and that it is known to be painful forthe patients. In certain modes of ES (e.g. when using ES in woundtreatment), there is also the added risk of infection because ES in sucha context is an invasive method.

Despite this the literature on the ES has been increasing exponentiallyin recent years. About 95 percent are positive reports despite anextraordinarily wide selection of experimental techniques and models.Fourteen research groups report that electrical currents stimulatedfracture healing with few if any complications in a total of 595patients. The mechanisms of action and ideal technique for applyingstimulation has yet to be determined

Nevertheless, ES has been used as a therapeutic means in a number ofconditions, notably in the treatment of various types of wounds, such asacute wounds, burns, chronic wounds including pressure ulcers, diabeticulcers, venous ulcers, and arterial ulcers. In the section dealing withthe detailed aspects of the present invention is included a review of anumber of the practical uses of ES.

OBJECT OF THE INVENTION

It is an object of the present invention to provide improved means foreffecting electrotherapy in order to overcome the above-mentioneddrawbacks.

SUMMARY OF THE INVENTION

It has been found by the present inventors that a variant of ES, wherecharge is delivered by means of electrically charged gas molecules,provides for the same advantages as does traditional ES, but has theadded advantages of not causing pain, being easy to administer and notinvolving any notable risks of contamination. Hence ES caused bytransfer of ionized gas molecules such as negatively charged Oxygen orpositively charged Nitrogen molecules provides an attractive alternativeto traditional electrotherapy.

Hence, in its first and broadest aspect, the present invention relatesto a method for treatment of a pathology-affected site in a subject, themethod comprising providing said site with a net electrical charge for aperiod of time by subjecting the subject to a flux of ionized gasmolecules whereby is provided an electrical current between said siteand tissue outside said site.

In a second aspect, the invention relates to a method for treatment asubject suffering from asthma or other disease characterized by apathology involving histamine release by mast cells or basophilicgranulocytes, said method comprising subjecting the subject to a flux ofionized gas molecules for a period of time, said ionized gas moleculeshaving a net positive or negative charge.

A third aspect relates to the medical use of ionized gas molecules inthe two methods which constitute the 1^(st) and 2^(nd) aspects of theinvention, i.a. the invention relates to ionized gas molecules for usein the therapeutic methods disclosed herein.

WO 2007/042029 discloses an air-ion transmitting device which comprisesan ion generator for generating a dose of air-ions, a radiation emittingelement for generating a dose of electromagnetic radiation, and afeedback structure which is adapted to determine an electrical currentthrough a living object. It is also disclosed to use the air-iontransmitting device in treatment, where a current is passed through aportion of the living object body. WO 2007/042029 teaches improvement ingeneral well-being and reduction of pain but there is no disclosure oflocalised ES in order to treat a local pathology.

CA 2,094,651 relates to an apparatus which is said to be is capable ofdelivering ionized gas to an area on a patient. However, the ionized gasconstitutes a mixture of positively and negatively charged gas moleculesand it does not appear that a net charge is transferred to the patient.Further, from the disclosure in CA 2,094,651 it is clear that thesubject treated with the apparatus must be completely isolated from anyelectrical conductors.

DETAILED DISCLOSURE OF THE INVENTION Legends to the Figures

FIG. 1 shows in schematic form the experimental setup in Example 1.

FIG. 2 shows a graph over the results from the experiments in Example 1.

FIG. 3 shows in schematic form the experimental setup in Example 3.

FIG. 4 shows a graph over the results from the experiments in Example 3.

DEFINITIONS

The expression “a pathology-affected site” is intended to mean an areaor 3D shapes or structure on or in a living body in an animal, typicallyin a human being, where the effects of a pathological process can beobserved. In this context, “pathology” should be construed broadly asany condition which causes discomfort or endangers the life of theanimal in question.

Providing a “net electrical charge” means that a sufficient amount ofelectrical charge is provided to a pathology-affected site, whereby anelectric current passes from said site to surrounding tissue for anappreciable period of time. This means that a current has to beestablished for at least 10 seconds, but often longer as detailed below.It should be emphasized that the electric current, which passes from thepathology-affected site to the surrounding tissue cannot be establishedprecisely—when discussing this electrical current in quantitative termsin the present application, the quantity (measured in Ampere) is the onewhich may be measured in discharge electrode(s) which returns currentfrom the subject to be treated to the device that delivers the ionizedgas molecules.

“Ionized gas molecules” broadly refers to gas molecules which carry anet electrical charge. Typical examples are negatively charged oxygenmolecules (O₂ ⁻) and positively charged Nitrogen molecules (N₂ ⁺)because of the abundancy of oxygen and nitrogen in atmospheric air, butany gas molecule capable of carrying a net charge is useful in thepractice of the present invention, as long as such ionized molecules donot provide unacceptable adverse or toxic effects on the subjectstreated.

A “discharge electrode” is an electrode attached to a treated subjectwhich ensures that the net charge provided by the ionized gas moleculesdo not simply build up a static charge in the subject but insteadestablishes an electrical current which passes through the subject tothe discharge electrode. Typically, such an electrode will be in theform of a strap, but any convenient physical form may be useful. Aspecial example of a discharge electrode is a “return electrode”, whichis connected (optionally via a control unit) to the device whichsupplies the ionized gas ions—this enables that a return current may bemeasured and this in turn enables full control over the current sentthrough the treated subject as a consequence of the delivery of theionized gas molecules.

A “gas ion transmitting device” is a device or apparatus, which iscapable of generating a stream, jet or flux of ionized gas moleculeshaving a net electrical charge and where the direction of the stream,jet or flux may optionally be controlled with respect to dosage,intensity and direction. Specifics concerning such devices are discussedbelow.

PREFERRED EMBODIMENTS General Considerations for all Aspects of theInvention

As mentioned above, ES has previously been utilised therapeutically in anumber of conditions and been demonstrated to provide advantageouseffects. Further, as will appear from the examples, the presentinvention has been successfully used in the treatment of persistentwounds, burns and other wounds notoriously exhibiting a lowhealing-rate. This underscores that treatment with ionized gas moleculesas an alternative to electrodes in order to deliver an electric currentin a wound is effective and also involves several advantages, since itis virtually painless for the patient, is easy to administer, andprovides a low risk of contamination. Further, knowing from the priorart that traditional ES has been utilised successfully for treatment,amelioration and prophylaxis of a number of conditions, the presentinventors have concluded that delivery of ionized gas moleculesaccording to the teachings herein will be an advantageous alternativefor treatment, amelioration and prophylaxis of exactly the same types ofconditions.

The practical implementation of the inventive method entails that thesubject to be treated is exposed for a period of time to a stream or jet(or flux) of ionized gas molecules which carry a net charge sufficientto generate a current in the subject. The stance and position of thesubject to be treated is inessential and will be chosen as a matter ofpracticality and convenience; often the subject will be resting on a bedor a treatment bench, but also a standing or sitting position ispossible, depending on the exact condition to be treated.

The ionized gas molecules (also termed “air ions”) are convenientlyprovided from a gas ion transmitting device which includes gas iongenerator (also known as an “air ionizer”). This type of device is knownto the skilled person and is e.g. used in the semiconductor industry tocounteract electrostatic charge building when handling and transportingmicrochips and wafers. However, a suitable gas ion transmitting devicefor use in the present invention is one which, apart from generating theions, is capable of delivering a directed stream of gas ions havingeither a predominant positive or a predominant negative charge (wheree.g. the devices used in the semiconductor industry typically deliver abalanced mixture of positive and negative ions). In brief, such anapparatus generates a high voltage applied to an electrode, which thusproduces an electrical field that is most intense in a defined region(e.g. immediately adjacent a sharply pointed tip). The intenseelectrical field disrupts the normal charge state of molecules of airgases (e.g. nitrogen and oxygen) in the region adjacent to the sharplypointed tip and some of the molecules become negative or positive ions,depending upon whether the molecule attains an excess or a deficiency ofelectrons (typically oxygen will become negatively charged, whereasnitrogen will become positively charged). The ions having a polarityopposite from the polarity of the high voltage of the electrode areattracted to the electrode and are neutralized, whereas ions of the samepolarity as the high voltage electrode repelled by the electrode and aredispersed outwardly. The subsequent projection towards the treatedsubject of the thus generated air ions can be controlled by e.g. usingblowers or fans; further the subject is connected to a return electrodeof opposite polarity than the projected gas ions, and this normallyensures a correct projection of the ionized gas molecules in the desireddirection towards the patient. Also, such a return electrode can beequipped with an amperemeter or other device for measuring the currentpassing through the electrode whereby the dosage of the ionized gasmolecules can be controlled by a feed-back mechanism where gas iongeneration and projection is controlled in response to the currentpassing through the electrode (i.e. if the return current exceeds apreselected current, the amount of gas ions projected by the ionized gastransmitting device is down-regulated, and vice versa).

Since the charge of the projected ionized gas molecules will depend onthe polarity of the electrode, it is possible to generate DC of eitherpolarity in the subject, and by shifting polarity of the electrode inthe gas ion transmitting device during the treatment, it is possible togenerate an AC based treatment, cf. below for details.

A suitable apparatus for delivering the ionized gas molecules is e.g.disclosed in WO 98/50110 and also WO 2007/042029 discloses a suitableapparatus, which also includes a further feature of providingelectromagnetic radiation to the site of treatment.

Considerations and Embodiments in Relation to the First Aspect of theInvention

Typically (and conveniently) the ionized gas molecules used in theinvention are derived from atmospheric air, but the practice of thepresent invention does not require this. Any acceptable ionized gas(supplied from a pressurized flask, e.g.) may find use in the presentinvention, as long as it can carry the necessary charges from theionized gas transmitting device to the subject being treated.

Typically, the net electrical charge of the ionized gas isnegative—first and formeost because it is fairly uncomplicated togenerate ionized oxygen (which is negatively charged), whereas thegeneration of positively charged Nitrogen ions is energetically a lessfavourable process. So, preferably, the ionized gas molecules arenegatively charged oxygen molecules.

However, it will be understood that the net electrical charge may alsobe positive and in that case the ionized gas molecules are typicallypositively charged Nitrogen molecules.

In order to ensure that an electric current is established between thepathology-affected site and surrounding tissue a discharge electrode isconveniently located outside said site on or in the subject's body so asto sustain the electrical current between said site and the dischargeelectrode. Said discharge electrode may, as indicated above, be a returnelectrode which establishes an electric circuit where charge is passingfrom the ionized gas transmitter device to the patient and where chargeleaves the patient to the ionized gas transmitter devise, thusestablishing a controllable circuit.

In some embodiments of the first aspect, the phase of the electricalcurrent is kept substantially constant over time during treatment, i.e.the patient is subjected to a DC electrotherapy treatment. However, inother embodiments it may be convenient to shift the direction of theelectrical current at least once during treatment by shifting the chargeof the ionized gas molecules (typically while simultaneously shiftingthe polarity of the discharge electrode). It is contemplated to shiftthe direction of the electrical current several times during a treatmentsession, e.g. at intervals selected from about 1 minute, about 2minutes, about 3 minutes, about 4 minutes, about 5 minutes, about 6minutes, about 7 minutes, about 8 minutes, about 9 minutes, about 10minutes, about 11 minutes, about 12 minutes, about 13 minutes, about 14minutes, about 15 minutes, about 16 minutes, about 17 minutes, about 18minutes, about 20 minutes, about 25 minutes, and about 30 minutes.

Typically, the flux of ionized gas molecules is projected directly ontothe pathology-affected site or, alternatively onto the surface of thesubject's body covering said site. The important goal to achieve is theprovision of an electric current which passes from the pathology relatedsite to surrounding tissue.

The ionized gas molecules are, as mentioned above, provided by means ofa gas ion transmitting device. It is preferred that the electricalcurrent obtained in the patient is at least 0.1 ρA, such as at least0.2, at least 0.3, at least 0.4, at least 0.5, at least 0.6, at least0.7, at least 0.8, at least 0.9, at least 1.0, at least 1.1, at least1.2, at least 1.3, at least 1.4, and at least 1.5 ρA. It is furtherpreferred that the electrical current is at most 100 ρA, such as at most50 ρA, at most 40, at most 30 at most 20, at most 15, at most 10, atmost 9, at most 8, at most 7, at most 6, at most 5, at most 4, at most3, and at most 2 ρA. In the practice of the invention good results havebeen obtained with an electric current of about 1.5 ρA, but currents ofabout 0.5, about 0.6, about 0.7, about 0.8, about 0.9, about 1.0, about1.1, about 1.2, about 1.3, about 1.6, about 1.7, about 1.8 about 1.9,about 2.0, about 2.2, about 2.4, about 2.6, about 2.8, about 3.0, about3.2. about 3.5 and about 4.0 ρA are all of relevance.

The treatment time for one treatment session is typically at least 1minutes, but normally longer, such as at least 5, at least 10, at least15, at least 20, at least 30, at least 40, at least 50, at least 60minutes, at least 2 hours, at least 3 hours, at least 4 hours or even atleast 6 hours. On the other hand, the treatment time is typically atmost 24 hours, such as at most 12 hours, at most 5 hours, but may belower, such as at most 4.5 hours, at most 4 hours, at most 3.5 hours, atmost 3 hours, at most 2.5 hours, and at most 2 hours. It should bementioned though, that treatment times for several days or weeks may benecessary when treating certain conditions such as aggressive cancers.

Typical treatment times are selected from about 20 minutes, about 30minutes, about 40 minutes, about 50 minutes, about 55 minutes, about 60minutes, about 65 minutes, about 70 minutes, about 80 minutes, and about90 minutes are all relevant.

Treatment sessions may be performed more than once, e.g. several times aday, but typically treatment is performed at regular intervals (e.g.daily) until a clinical end-point has been reached (e.g. the healing ofinjured tissue).

As mentioned above, the first embodiment of the invention relates to amethod for treatment of a pathology-affected site in a subject, themethod comprising providing said site with a net electrical charge for aperiod of time by subjecting the subject to a flux of ionized gasmolecules whereby is provided an electrical current between said siteand tissue outside said site.

This aspect of the invention therefore aims at ensuring that anelectrical current flows between the pathology-affected site and“surrounding tissue”.

Said pathology-affected site may be selected from the group consistingof a wound area (e.g. after trauma or surgery); injured tissue (e.g.after trauma or surgery) such as injured tendon and/or ligament tissue,injured peripheral or central nerves; a site exhibiting localized pain;a site exhibiting edema; a solid malignant tumour (e.g. carcinoma,adenocarcinoma, liposarcoma, fibrosarcoma, chondrosarcoma, osteosarcoma,leiomyosarcoma, rhabdomyosarcoma, glioma, neuroblastoma,medulloblastoma, malignant melanoma, malignant meningioma,neurofibrosarcoma, choriocarcinoma, malignant teratoma, andheamangiosarcoma of any tissue distribution and tissue location); and alocalised non-solid malignant tumour (such as a myeloma).

The rationale behind the first aspect is the following: Treatment withES, where the present invention can provide an attractive alternative,is described in a number of references, which primarily deal with use ofES as a therapeutic means which promotes healing of various types ofinjured tissue. Without being limited to any theory, it is believed thatthe electric current produced as a consequence of the present treatmentassists in attracting cells which normally play a major role ininflammation and tissue repair.

Further, the present invention has been utilised successfully on humanpatients suffering from a variety of slow- or non-healing wounds, andsince the wound healing process is not fundamentally different from e.g.healing of an internal injury, it is concluded that a large number oftissue injuries are relevant targets for the presently disclosedtreatment method.

In the following is provided an overview of the existing ES therapies,where the present method of the first aspect of the invention is anattractive alternative to traditional ES:

Wound Treatment and ES

A review of the use of ES in wound treatment can be found in Bogie K.M., Reger S. I., Levine S. P., and Sahgal V. (2000) “Electricalstimulation for pressure sore prevention and wound healing”. Assist.Technol. 12, 50-66. Abstract: This paper reviews applications oftherapeutic electrical stimulation (ES) specific to wound healing andpressure sore prevention. It is reported that the application of ES forwound healing has been found to increase the rate of healing by morethan 50%. Furthermore, the total number of wounds healed is alsoincreased. It is also reported that optimal delivery techniques for EStherapy have not been established to date. A study of stimulationcurrent effects on wound healing in a pig model has shown that directcurrent (DC) stimulation is most effective in wound area reduction andalternating current (AC) stimulation for wound volume reduction atcurrent densities of 127 ρA/cm² and 1,125 ρA/cm², respectively. It isalso reported that surface stimulation studies have shown that ES canproduce positive short-term changes in tissue health variables such asregional blood flow and pressure distribution. The use of an implantedstimulation system consisting of intramuscular electrodes withpercutaneous leads has been found to produce additional long-termchanges, so it is suggested that an implantable ES system may have greatpotential for pressure sore prevention.

Reich J. D., Cazzaniga A. L., Mertz P. M., Kerdel F. A., and EaglsteinW. H. (1991) “The effect of electrical stimulation on the number of mastcells in healing wounds”. J. Am. Acad. Dermatol. 25, 40-46. Thisreference reports the effect of ES on the numbers of mast cells inwounds and other cutaneous disorders, where ES has been shown to beeffective in treating many of these disorders. In a pig model, highlysignificant reductions in the number of mast cells were seen inelectro-stimulated animals when compared with nonstimulated controlwounds. It was concluded that the ability of electrical stimulation todecrease the number of mast cells may be related to a reduction ofeither proliferation or migration of these cells and may prove to be avaluable therapeutic technique.

To conclude, the method of the invention is useful in treatment ofwounds, especially slow-healing and non-healing wounds (cf. also theexamples).

It is therefore a preferred embodiment of the first aspect of theinvention to utilise the method on a wound area, such as a slowlyhealing or non-healing wound area. It is, as demonstrated in Example 2,thereby possible to facilitate healing of the wound. It is believed thatespecially good results are obtained when the net electrical chargecarried by the ionized gas molecules establishes an electrical currentbetween the surface of the wound area and underlying tissue.

Bone Repair and ES

Albert S. F. and Wong E. (1991) “Electrical stimulation of bone repair”.Clin. Podiatr. Med. Surg. 8, 923-935. This reference reports thatelectrical stimulation demonstrates consistently high success rates inrecalcitrant, complicated nonunions and speculates that thatacceleration of fracture repair by electrical stimulation will becomemore widespread in the future.

Dunn A. W. and Rush G. A., III (1984) “Electrical stimulation intreatment of delayed union and nonunion of fractures and osteotomies”.South. Med. J. 77, 1530-1534 reviews the cases of 52 patients with 52ununited fractures and osteotomies who were treated with two methods ofelectrical stimulation, one surgical, the other nonsurgical. Seventeenpatients, 14 of whom had concomitant bone grafting, had implantation ofa bone growth stimulator. There were three synovial pseudarthroses butno active infection in this group. The overall success rate in healingof the fractures was 82%. Thirty-five patients, of whom four had initialconcomitant bone grafting, were treated with pulsing electromagneticfields (PEMF). There were six draining infections but no pseudarthrosisin this group. Two nonunions healed after bone grafting was combinedwith PEMF treatment, when the latter alone had failed. Eighty-onepercent of the fractures united, and drainage ceased in five of the sixinfections.

Masureik C. and Eriksson C. (1977) “Preliminary clinical evaluation ofthe effect of small electrical currents on the healing of jawfractures”. Clin. Orthop. 84-91 reported the results of a clinicalinvestigation of the effect of small electrical currents on the healingof mandibular fractures in 40 patients when compared to an equal numberof controls with similar fractures. The repair process was enhanced inthe electrically stimulated fractures compared to the controls in thefirst 10-14 days after reduction.

Finally, in US Musculosceletal review 2007, pages 36-38, Neil Kahanovitzpresents a review of various ES techniques and their successfulapplication as adjunctive therapy for the surgical methodology known asspinal fusion.

Hence, since traditional ES has proven effective in promoting bonerepair, it is contemplated that the present invention will also beuseful for this purpose.

Repair of Other Tissue

Fujita M., Hukuda S., and Doida Y. (1992) “The effect of constant directelectrical current on intrinsic healing in the flexor tendon in vitro.An ultrastructural study of differing attitudes in epitenon cells andtenocytes”. J. Hand Surg. [Br.] 17, 94-98, investigated the effects ofelectrical stimulation upon the reparative processes in flexor tendonscultured in vitro. After one or two weeks of incubation, theunstimulated control tendons were covered with fibroblastic surfacecells, thought to have originated from the epitenon. In contrast, thetendons subjected to electrical stimulation had no proliferation of theepitenon cells in the surface layer. The results indicate thatelectrical currents of low amperage suppress adhesion-causing synovialproliferation in the epitenon and promote active collagen synthesis inthe tenocytes. This suggests the potential value of electricalstimulation in the control of adhesion formation after flexor tendonrepair.

Hence, since traditional ES has proven effective in promoting tendonrepair, it is contemplated that the present invention will also beuseful for this purpose, but also more broadly for repair of any tissue(which has a capacity for healing) which has been injured in one way oranother. Thus all types of tissue which has been injured by means of atrauma or otherwise (e.g. surgery) will be a suitable target for thepresently disclosed method.

Hence, in post-operational settings (i.e. after surgery), the presentinvention will be applicable as adjunctive therapy. This is especiallyinteresting, since the present method also shows promise in alleviatinglocal pain. In post-surgery, the treatment will include the benefits ofreduced need for sedatives and analgetics, a potential decrease inincidence of depression, earlier mobility, fewer instances ofpostoperative pulmonary complications, and, in some cases, a reducedlength of stay in the Intensive Care Unite ICU. The patient willnormally be treated in bed in a manner generally described above. Thepatient will be treated 45-60 minutes per day, typically over the areathat causes the pain (i.e. the surgically traumatized area), and thepatient will be treated daily until an acceptable result has beenachieved.

The present invention is also believed to be effective in promotinghealing of nerve injuries, both peripheral and possibly also central,thereby activating nerves that innervate extremities or other parts ofthe body affected by permanent or temporary paralysis. Such paralysiscan e.g. be the result of a spinal cord injury, head injury, stroke orother neurologic disorders.

The patient will be treated as discussed generally above, where theionized gas molecules will be delivered over the site of nerve injury,e.g. over the spinal cord or over the exact site of the nerve lesion.The patient will be treated daily until an acceptable result has beenachieved.

Similarly, the present invention can also be used to promote recoveryfrom orthopedic and neuromuscular diseases, where the motor cortex ofthe brain is restored or by stimulus at the periphery. The patient willin such a case be treated with a flux of ionized gas for 45-60 minutese.g. over the spinal cord, at the back of the head or directly down inthe head. The patient will be treated daily until an actable result hasbeen achieved.

The present invention may also provide a localised pain treatmentmethod, where ionized gas carrying a net positive or negative charge isprojected over the painful site. The subject to be treated is positionedin an optimum manner as described above depending on the position andsize of the site of pain and at least one discharge electrodes (normallyusing straps attached to the ankles or wrists) is located on thesubject's body, remote from the site of pain in order to ensure that anet current will run through the site of pain. The method is applicableto all kinds of localized pain such as low back pain, myofascial andarthritic pain, neurogenic pain, and postsurgical pain. The patient willbe treated 45-60 minutes directly on the spot for the pain and thetreatment will normally be repeated daily until an acceptable result hasbeen achieved.

Also various types of edema can be treated by means of the presentinvention, thereby reducing traumatic edema resulting from thedisruption of blood vessels which often accompanies musculoskeletalinjuries such as acute strains and sprains. The treatment will alsofacilitate the voluntary muscle pump activity which assists in lymphaticand venous drainage and thus aid in resolution of posttraumatic edema.

The patient will normally be treated in bed or on a treating bed in amanner as described above for 45-60 minutes over the edemic area. Thepatient will be treated daily until an actable result has been achieved.

Reduction of Drug Resistance in Cancer Cells

It has previously been demonstrated that ES facilitates the cellularuptake of cytostatic drugs (notably doxorubicin), whereby cells werekilled even at low doxorubicin concentrations. Hence, ES may improve theefficacy of existing chemotherapeutic treatments when used as adjunctivetherapy. Also in this setting the present invention may provide a safeand non-discomfort causing treatment regimen.

The patient can be treated in any convenient stance and position andhave the discharge electrodes attached around angles and/or wrists. Thepatient will be treated 45-60 minutes, typically over the facial area,just prior to receiving chemotherapy.

Thus, the rationale behind the treatment of sites of malignant tumoursis primarily the fact that ES in general will provide for an enhancedeffect of anticancer chemotherapy.

Strokes caused by an embolus in the brain can also be ameliorated bymeans of the present invention. The goal of the treatment is to decreasethe embolic site in a blood vessel and to increase the flow ofoxygen-rich blood to the brain. Also ischemia may be treated in exactlythe same way, the goal being essentially the same, namely to secureand/or reestablish blood-flow in an ischemic area.

The patient will be treated with the ionized gas for 45-60 minutes overthe facial area and treated daily until an acceptable result has beenachieved (the goal of the treatment is to restore the blood supply andto minimise the damage or dysfunction of tissue).

It is also believed that patients suffering from Parkinson's disease(and other neurodegenerative disorders such as Alzheimer's disease) willbenefit from the present treatment. In essence, Parkinson's disease iscaused by a progressive and specific loss of cells in the substancianigra in the CNS. Since the present invention is useful in stimulatingcells to maintain their activity and function (cf. the discussion ofmast cells below), it is believed that the same effect may be attainedfrom cells which are “struggling”. The patient will be treated 45-60minutes down in the face and will be treated daily until an acceptableresult has been achieved.

Considerations and Embodiments in Relation to the 2^(nd) Aspect of theInvention

The second aspect of the invention relates to treatment of asthma andtype I allergy, cf. above.

As shown in the example section, in vitro experiments demonstrate thathistamine release from mast cells is sensitive to electrostimulation.Since asthma is one disease where histamine release by mast cells is animportant pathological factor, the present invention may advantageouslybe used in treatment amelioration of asthma. Similarly, type I allergieswhere IgE mediated release of histamine from mast cells and basophilicgranulocytes play a central role is also a relevant disease target forthe treatment method of the current invention. It is therefore believedthat transfer of charge using airborne, charged gas molecules to carrythe charge to be released on the skin on a person suffering from asthmaor type I allergy will help the patient to recover or will reduce therisk of later disease.

The goal of the treatment is to help restore or control mast cellfunction in people with asthma or type I allergy. The patient willnormally be asked to rest on a treatment bed and will be connected tothe return straps (the discharge electrodes) around the ankles or aroundthe wrist in order to secure that the ionized gas stream will provide acurrent between the treated area and the straps. In each treatment, thepatient will typically be treated with the ionized gas for 10-30 minuteson the anterior and on the posterior side of the torso, respectively,i.e. a total treatment time of between 20 and 60 minutes.

The patient will be treated daily until an acceptable result has beenachieved.

In this second aspect of the invention, the flux of ionized gasmolecules is preferably projected onto the thorax and/or the face of thesubject, but for some patients, where this mode of treatment is tooaggressive, it is necessary (and indeed possible) to treat other partsof the body remote from the respiratory system (e.g. hands or feet)

Otherwise, in this second aspect of the invention, the featuresdescribed with respect to the choice of process parameters (insofar asthese do not relate to the exact feature of ensuring a current from adefined pathology-affected site to surrounding tissue and does notrelate to the pathologies discussed in the first aspect of theinvention) apply mutatis mutandis to the second aspect of the invention.I.e. all choices of features used in the first aspect of the invention(such as the type and charge of gas molecules, the size and the polarityof the current established in the patient, the timing of the treatment,and the intervals between individual treatment sessions) are all equallyapplicable and useful when carrying out the second aspect of theinvention.

Other Aspects of the Invention

It has been found that treatment of patients according to a variant ofthe first aspect (i.e. where it is secured that an electrical currentpasses through part of the body), it is possible to obtain appreciableimprovements in the circulatory system, both locally and systemically.It is believed that this is the consequence in increase of metabolicdemand in the treatment area. Patients are typically connected to thereturn wrist strap electrodes around the ankles or around the wrist andsubsequently treated 45-60 minutes over the area to be treated. Thepatient has to be treated daily until an acceptable result has beenachieved.

To conclude on this, it is also an aspect of the invention to apply themethods described generally herein for circulatory disorders, especiallyfor improving blood circulation.

Example 1 Model Experiment Investigation Cellular Reactions to ES

The optimal laboratory set up system for investigation of the reactionon cells by the use of ES could be as shown in FIG. 1.

1 is a glass container, 2 is a top electrode which is cowering the totalarea to be receiving the current, 3 is a bottom electrode cowering thetotal area of the bottom, 4 is the target to be treated, 5 is a currentgenerator, 6 is a control system, 7 denotes electrical cables.

The fluid in insulating container 1 is a cell suspension containing mastcells.

Mast cells and basophilic granulocytes are involved in anaphylaxis(which can ultimately lead to anaphylactic shock), where considerableamounts of heparin and histamine are deposited in the blood. These, andother biologically active substances present in the granules of the mastcells and basophilic granulocytes are to some extent responsible for thesymptoms found with asthmatic and type I allergic reactions.

During an asthmatic or type I allergic attack, the mast cells areprovoked to secrete histamine. By use of a chemically manufacturedsecretory substance, it is possible to simulate the process which takesplace in the body when mast cells secrete histamine, and this makes itpossible to investigate the relation between the mode of treatment andthe production of histamine.

The investigation described below makes it possible to get an insightinto the mechanisms, which, via exocytosis, leads to the secretion ofmediators such as histamine.

Secretion of histamine is typically a result of an attack of asthma orallergy, and it causes various types of discomfort. Mast cells can beisolated, and have for many years successfully been used to investigatecellular changes taking place during the secretory process.

Glossary and Technical Concepts

Spontaneous histamine: The percentage of spontaneous histamine is ameasure of the degree to which the cells used, now in the body fluid,have been affected during the process, or in other words, if theproduction of histamine is affected by the cell fluid in which the cellsexist. If the spontaneous histamine is below 5%, the cells have not beenaffected to a measurable degree. If, on the other hand, the spontaneoushistamine is above 5%, the cells are said to be stressed. Thespontaneous histamine is thus a way of controlling that the cells usedin the tests behave like normal, healthy cells.

Exocytosis: A process by which cells secrete certain substances. Forinstance, mast cells secrete histamine through exocytosis.

Cell suspension: Cell plus extracellular fluid.

Neutral conductor: The necessary earth wire to make sure that iongenerators, measuring equipment and patients are grounded, in order tobe able to interpret the currents measured.

Compound 48/80: During an allergic or asthmatic attack, mast cells areprovoked to increase their production of histamine. Compound 48/80 is asynthetic inducer of the secretory process and thus of the secretion ofhistamine from mast cells. By adding different concentrations ofcompound 48/80 to the cell suspensions and thus provoking differentrates of histamine secretion, it is possible to investigate to whatextent ES may influence on the undesired secretion of histamine from themast cells.

Using the set-up system as shown in FIG. 1, it is thus possible tomeasure the result of providing an electrical current between electrodes2 and 3 through the mast cell containing liquid in container 1. Thecurrent will flow in essentially direct lines from the entire uppersurface of the fluid to the bottom electrode 3.

With the first series of experiments, the fluid in the insulatingcontainer was a cell suspension containing mast cells. The purpose ofthese experiments was to determine if mast cells react to ES.

After a current had been sent through the suspension at a time intervalvarying from experiment to experiment, compound 48/80 was added invarious concentrations, and the reactions of the mast cells in terms ofhistamine secretion were studied.

There was no doubt that the reaction of the mast cells depended on thecurrent treatment, but the results were rather variable.

If, for instance, an experiment was repeated the following day with thesame current intensity in the same time interval, the reaction of themast cells was sometimes very different, and a positive reaction mighteven be replaced by an overreaction.

Such results are obviously not easy to interpret, but they suggest thatthe properties of the mast cells vary from time to time.

We now developed the theory that the treatment with ES directly on afluid containing cells primarily is too powerful, and that the effectobserved on the cells was caused by a subsequent interaction between thecell fluid and the cells.

In order to find out whether this was the case, a series of experimentswas carried out with a cell fluid without mast cells.

With this treatment, currents of positive as well as negative werepassed through the fluid samples for a period of one hour, using theset-up shown in FIG. 1. The same (numeric) current intensity was usedfor all experiments. After the exposure to current, mast cells wereadded to the samples treated as well as to untreated samples.

After a period of 30 minutes, compound 48/80 was added to concentrationsof 0.1, 0.2 and 0.3 μg/ml.

The result is shown in the graph in FIG. 2.

The results show that the production of histamine increases dramaticallywith the concentration of compound 48/80, but also that it is possibleto reduce the production of histamine considerably by treating the cellfluid with Electrical Stimulation but that it seems to be difficult todo it directly on a suspension containing cells, even by using a currentat 1.5 ρA.

Example 2 The Use of the Present Invention in Wound Healing Rat Trial

A total number of 16 white healthy rats were each given a 20 mm×20 mmtechnical wound on the back. The rats were then separated randomly intotwo groups, a BLACK group and a RED group.

Each of the rats in group BLACK was given a black indication as a numberfrom 1-8

Each of the rats in group RED was given a read indication as a numberfrom 1-8.

Because all the rats were healthy, the healing time of the wounds wereexpected to be between 2 and 3 weeks.

The wounds were not covered or given any kind of saline.

By draw the BLACK group was elected to be treated with the treatment ofthe present invention for 45 minutes a day in 5 days. This was the onlytreatment this group received.

The RED group received no treatment at all.

Rats Group BLACK Treated with the Method of the Invention (GeneralFindings)

Day 1 3 6 9 12 15 18 Wound Wound Wound Wound Wound Wound is is is ishealing almost dry. No dry and healing. healing fast. healed. reactionhealing. fast. Size by No Size reduced touch. reaction reduced 75% by50% touchRats Group RED with No Treatment (General Findings)

Day 1 3 6 9 12 15 18 Wound Wound Small Wound Wound Wound Wound is ispart is is healing. almost wet. 50% dry of wound healing. healing. Sizehealed. Reaction and is wet. Size Size reduced by healing. Healingreduced reduced 75% touch. No ongoing. 30% 50% reaction by touch

Conclusion

The BLACK group treated according the invention exhibited a fasterinitiation of wound healing, and there was no reaction when touching thewounds already after day 1.

The wounds healed a few days faster than the RED group not beingtreated.

None of the rats being treated according to the invention exhibited anysigns of adverse effects of the treatment.

Since all the rats were healthy and since the healing of the treatedanimals was faster it was concluded that the by using the method in nonhealing wounds could result in a much faster healing than seen by use oftraditional ES. A number of human trials was hence set up.

Human Trials

ES is well known as a method in healing of non healing wounds, so thefollowing treatments is all on patients suffering from non healingwounds, to show that the method is at least as useful as ES.

In a period over 14 months a total number of 45 patients have beentreated with the method of the invention to verify the effect of themethod. All patients were hospitalized by the beginning of thetreatment, all suffering from serious wounds or burns, many of them withan generally critical condition.

All patients were informed about their situation and they all gave theirinformed consent to enter into the treatment of the invention.

Almost all patients were in severe pain and they required regular andstrong analgesia.

All patients were treated by transferring 1.5 ρA for 60 minutes in eachtreatment session (i.e. a total transfer of a net charge of 5.4 mC).

The treatment regimen was identical all patients. They were connected toa return cable by using wrist straps that was fixed to their ankles ortheir wrists.

The equipment were set to transfer 1.5 micro ampere and they allreceived the treatment 60 minutes a day 5 times a week.

24 patients were suffering from non healing lake wounds and in severepain requiring strong analgesia.

4 of the 24 patients were dismissed from the surgical unit after 6-8days of treatment. 15 patients recovered after a period of treatment ofbetween 15-45 days, all being treated for 60 minutes 5 times a week.

Only 4 patients ended up being amputated, but recovered after 15-45 daysat the hospital receiving the AMS treatment for 60 minutes 5 times aweek.

1 patient past away due to other complications than the wounds.

All patients required significantly less analgesia.

11 patients were post operated suffering from non healing wounds and insevere pain requiring strong analgesia.

8 of those 11 patients did have the non healing wound on the abdomen. 2of the patients past away due to other complications than the wounds.The remaining 6 patients recovered after 14-21 days of treatmentaccording to the invention for 60 minutes 5 days a week.

2 of the 11 post operated patients had the non healing wound on theback, and they both recovered after just 5 days of 60 minutes treatment.

One of the 11 post operated patients had the non healing wound on theback and was suffering from an infection problem in the spinal cord aswell. This patient recovered after only 3 days of treatment for 60minutes per day. This patient recovered after only 3 days of treatmentfor 60 minutes per day.

All patients required significantly less analgesia.

5 patients were suffering from burns.

One of those 5 patients was in such a bad condition that the life wasnot to save.

The 4 patients suffering from 2nd and 3^(rd) degrees burns were alldischarged from the surgical unit mush faster than what was normal andthe treatment of the invention seemed to include the further advantageof not leaving any significant scar tissue. All patients requiredsignificantly less analgesia.

5 patients were suffering from bed wounds.

One of those 5 patients past away because of other complications thanthe wounds.

One of the 4 patients was brought in to the surgical unit from anotherhospital suffering from a bed wound that had been operated without anygood result.

This patient recovered after 10 days of treatment of the invention andwas then discharged from the surgical unit to continue under normalwounds management.

The 3 of the 4 patients were treated according to the invention at theearly beginning and after the first treatment the wound was dry andwithout pain. The treatment was repeated every 3^(rd) day forprevention.

All patients required significantly less analgesia.

The over all result shows that the treatment of the invention is usefulas a means of ES therapy.

Example 3 Using Ionized Gas Molecules to Treat Mast Cells

A system for delivering ionized gas molecules to a mast cell suspensionis shown in FIG. 3.

In this figure, 1 is a glass container, 2 bottom electrode, 3 is thetarget to be treated, 4 is the gas ion transmitting device, 6 is acontrol system, 7 are conducting cables.

With the first series of experiments, the fluid in the insulatingcontainer was a cell suspension containing mast cells.

The purpose of these experiments was to see if mast cells react totreatment with ionized gas molecules in analogy to Example 1.

Both N₂ ⁺ and O₂ ⁻ was dispensed over the suspension at a time intervalvarying from experiment to experiment, compound 48/80 was added tovarious concentrations, and the reactions of the mast cells in terms ofhistamine secretion were studied.

There was no doubt that the reaction of the mast cells depended on thecurrent treatment, but the results were again rather variable.

If, for instance, an experiment was repeated the following day with thesame current intensity in the same time interval, the reaction of themast cells was sometimes very different, and a positive reaction mighteven be replaced by an overreaction.

Such results are obviously not easy to interpret, but they suggest thatthe properties of the mast cells vary from time to time.

We used our theory that the treatment with gas ions as well as the onewith ES directly (as in Example 1) on a fluid containing cells primarilyis too powerful, and that the effect observed on the cells was caused bya subsequent interaction between the cell fluid and the cells.

In order to find out whether this also was the case in this set-upsystem, a series of experiments was carried out with a cell fluidwithout mast cells.

With this treatment, currents of N₂ ⁺ as well as O₂ ⁻ were deliver tothe fluid samples for a period of one hour, using the set-up shown inFIG. 3. The same (numeric) current intensity was used for allexperiments. After the exposure to N₂ ⁺ and O₂ ⁻ current, mast cellswere added to the samples treated as well as to untreated samples.

After a period of 30 minutes, compound 48/80 was added to concentrationsof 0.1, 0.2 and 0.3 μg/ml.

The result is shown in the graph in FIG. 4.

The results show that the production of histamine increases dramaticallywith the concentration of compound 48/80, but also that it is possibleto reduce the production of histamine considerably by treating the cellfluid with AMS technology.

Example 4 The Effect of on Asthma

22 children in the age between 4 and 13 (11 girls and 11 boys) weretreated with gas ions according to the teachings herein for 5 days, eachbeen given 10 minutes of treatment on the chest and 10 minutes oftreatment on the back side of the thora at 1.5 ρA.

All the children were under medical treatment using asthma medication.

The parents were informed in detail about the trial, and rapports aboutES were shown to them to convince that there was no risk in using themethod. A total explanation was been given about the technology of thepresent invention. Two couples of parents decided not to participate inthe trial.

The parents was asked about the in-door climate at their homes, and itseems to be so that 3 of the children (2 girls and 1 boy) was from homeswith in-door climate problems which could be the reason for theirasthma.

The result was encouraging 14 of the children (9 girls and 5 boys) seemsto be quit of their asthma and stopped using medication after the 5 daysof treatment.

3 weeks later the 14 children continue being free of medication andfurther more 2 of those that did not end free of medication after the 5days was in the week after the treatment less medicated than before.

1. A method for treatment of a pathology-affected site in a subject, the method comprising providing said site with a net electrical charge for a period of time by subjecting the subject to a flux of ionized gas molecules whereby is provided an electrical current between said site and tissue outside said site.
 2. The method according to claim 1, wherein said site is selected from the group consisting of a wound area; injured tissue such as injured bone tissue, injured tendon, injured ligament tissue, injured peripheral or central nerves; a site exhibiting localized pain; a site exhibiting edema; a solid malignant tumor and a localized non-solid malignant tumor.
 3. The method according to claim 2, wherein said wound area is a slowly healing or non-healing wound area.
 4. The method according to claim 3, wherein healing of the wound area is facilitated by said treatment.
 5. The method according to claim 1, wherein the net electrical charge establishes an electrical current between the surface of the wound area and underlying tissue.
 6. The method according to claim 1, wherein said gas is derived from atmospheric air.
 7. The method according to claim 1, wherein said net electrical charge is negative.
 8. The method according to claim 1, wherein the ionized gas molecules are negatively charged oxygen molecules.
 9. The method according to claim 1, wherein said net electrical charge is positive.
 10. The method according to claim 9, wherein the ionized gas molecules are positively charged Nitrogen molecules.
 11. The method according to claim 1, wherein a discharge electrode is located outside said site on or in the subject's body so as to sustain the electrical current between said site and the discharge electrode.
 12. The method according to claim 1, wherein the phase of the electrical current kept substantially constant over time during treatment.
 13. The method according to claim 1, wherein the direction of the electrical current is shifted at least once during treatment by shifting the charge of the ionized gas molecules.
 14. The method according to claim 13, wherein the polarity of the discharge electrode is shifted substantially simultaneously with shifting the charge of the ionized gas molecules.
 15. The method according to claim 1, wherein the flux of ionized gas molecules is projected directly onto said site or to the surface of the subject's body covering said site.
 16. The method according to claim 1, wherein the ionized gas molecules are provided by means of a gas ion transmitting device.
 17. The method according to claim 1, wherein the electrical current is at least 0.1 μA.
 18. The method according to claim 1, wherein the electrical current is at most 100 μA.
 19. The method according to claim 1, wherein the treatment time is at least 1 minute.
 20. The method according to claim 1, wherein the treatment time is at most 24 hours.
 21. A method of treating a subject suffering from asthma or other disease characterized by a pathology involving histamine release by mast cells or basophilic granulocytes, said method comprising subjecting the subject to a flux of ionized gas molecules for a period of time, said ionized gas molecules having a net positive or negative charge.
 22. The method according to claim 21, wherein the flux is projected onto the thorax and/or the face of the subject.
 23. The method according to claim 22, wherein the method features are as defined in any one of claims 6-14 and 16-20.
 24. (canceled) 